If the energy of the system is conserved, what must be the speed of the cart in (D) when it hit the bumper? Consider the following data for the table below:Mass of cart = 498 gSuspended mass = 75 gDistance travelled by cart = 1.48 cmConservation of Mechanical EnergyMass Speed(kg) (m/s) Energy (1) (m) Energy (1)Height Potential Total MechanicalEnergy (I)(A)(B)(C)KineticPosition Body/ObjectCartInitial Suspended MassTotalCartFinal Suspended Mass(D)(E)(F)(G)Total()Change in EnergyIf the energy of the system is conserved, what must be thespeed of the cart in (D) when it hit the bumper?1.95 m/s13.9 m/s2.09 m/s5.39 m/s

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Description: If the energy of the system is conserved, what must be the speed of the cart in (D) when it hit the bumper? Consider the following data for the table below:Mass of cart = 498 gSuspended mass = 75 gDistance travelled by cart = 1.48 cmConservation of M

Consider the following data for the table below,Mass of cart ,Suspended mass and Distance travelled…

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Consider the following data for the table below: Mass of cart = 498 g Suspended mass = 75 g Distance travelled by cart = 1.48 cm Position Body/Object Cart Initial Suspended Mass Cart Final Suspended Mass 1.95 m/s 13.9 m/s 2.09 m/s Conservation of Mechanical Energy Mass Speed Kinetic Height Potential (kg) (m/s) Energy (J) (m) Energy (1) 0 0 0 5.39 m/s Total (D) Total Change in Energy (F) (G) 0 0 If the energy of the system is conserved, what must be the speed of the cart in (D) when it hit the bumper? 0 0 Total Mechanical Energy (1) (A) (B) (C) (1) 0 O O O

Consider the following data for the table below: Mass of cart = 498 g Suspended mass = 75 g Distance travelled by cart = 1.48 cm Position Body/Object Cart Initial Suspended Mass Cart Final Suspended Mass 1.95 m/s 13.9 m/s 2.09 m/s Conservation of Mechanical Energy Mass Speed Kinetic Height Potential (kg) (m/s) Energy (J) (m) Energy (1) 0 0 0 5.39 m/s Total (D) Total Change in Energy (F) (G) 0 0 If the energy of the system is conserved, what must be the speed of the cart in (D) when it hit the bumper? 0 0 Total Mechanical Energy (1) (A) (B) (C) (1) 0 O O O

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter7: Conservation Of Energy

Section: Chapter Questions

Problem 36P

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Concept explainers

Kinematics

A machine is a device that accepts energy in some available form and utilizes it to do a type of work. Energy, work, or power has to be transferred from one mechanical part to another to run a machine. While the transfer of energy between two machine parts, those two parts experience a relative motion with each other. Studying such relative motions is termed kinematics.

Kinetic Energy and Work-Energy Theorem

In physics, work is the product of the net force in direction of the displacement and the magnitude of this displacement or it can also be defined as the energy transfer of an object when it is moved for a distance due to the forces acting on it in the direction of displacement and perpendicular to the displacement which is called the normal force. Energy is the capacity of any object doing work. The SI unit of work is joule and energy is Joule. This principle follows the second law of Newton's law of motion where the net force causes the acceleration of an object. The force of gravity which is downward force and the normal force acting on an object which is perpendicular to the object are equal in magnitude but opposite to the direction, so while determining the net force, these two components cancel out. The net force is the horizontal component of the force and in our explanation, we consider everything as frictionless surface since friction should also be calculated while called the work-energy component of the object. The two most basics of energy classification are potential energy and kinetic energy. There are various kinds of kinetic energy like chemical, mechanical, thermal, nuclear, electrical, radiant energy, and so on. The work is done when there is a change in energy and it mainly depends on the application of force and movement of the object. Let us say how much work is needed to lift a 5kg ball 5m high. Work is mathematically represented as Force ×Displacement. So it will be 5kg times the gravitational constant on earth and the distance moved by the object. Wnet=Fnet times Displacement. 

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Question

If the energy of the system is conserved, what must be the speed of the cart in (D) when it hit the bumper?

Consider the following data for the table below:
Mass of cart = 498 g
Suspended mass = 75 g
Distance travelled by cart = 1.48 cm
Conservation of Mechanical Energy
Mass Speed
(kg) (m/s) Energy (1) (m) Energy (1)
Height Potential Total Mechanical
Energy (I)
(A)
(B)
(C)
Kinetic
Position Body/Object
Cart
Initial Suspended Mass
Total
Cart
Final Suspended Mass
(D)
(E)
(F)
(G)
Total
()
Change in Energy
If the energy of the system is conserved, what must be the
speed of the cart in (D) when it hit the bumper?
1.95 m/s
13.9 m/s
2.09 m/s
5.39 m/s

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